Voice command input device and voice command input method

ABSTRACT

A voice command input device includes a first voice input unit, a second voice input unit, and a voice command identifier. The first voice input unit converts a voice into first voice command information, and outputs first identification information and the first voice command information. The second voice input unit converts a voice into second voice command information, and outputs second identification information and the second voice command information. The voice command identifier refers to the first identification information and the second identification information, and generates a control signal for controlling an operation target appliance based on the result of referring, the first voice command information, and the second voice command information.

RELATED APPLICATIONS

This application is a continuation patent application of U.S. patentapplication Ser. No. 15/122,429 filed on Aug. 30, 2016, which is aNational Phase of International Patent Application No.PCT/JP2015/001721, filed on Mar. 26, 2015, which in turn claims thebenefit of Japanese Patent Application No. 2014-068192, filed on Mar.28, 2014, the disclosure of which applications are incorporated byreference herein.

TECHNICAL FIELD

The present disclosure relates to a voice command input device and avoice command input method which allow a plurality of users to operatean appliance by voice.

BACKGROUND ART

PTL 1 discloses a voice command input device including a plurality ofvoice input units. When a plurality of voices are input, the voicecommand input device prioritizes the plurality of voices, and recognizesone voice with the highest priority.

FIG. 6 is a block diagram showing a configuration of the voice commandinput device disclosed in PTL 1.

The voice command input device includes a plurality of microphones 601which are voice input units. Controller 602 recognizes control contentspecified by voice, and controls the operation of a connected appliancebased on the recognized control content. FIG. 6 shows an example wherecontroller 602 performs switching between on and off of power of airconditioner 610, or switching between on and off of power switch 612 oflighting equipment 611.

Microphone 601 is installed in each room of a house, and is connected bya signal wire to one controller 602 installed in the house. In the casewhere a speaker instructs by voice that switching between on and off ofpower of air conditioner 610 is to be performed, controller 602transmits, from interface 607 to remote control 608 of air conditioner610, based on the result of voice recognition, a control signalinstructing that switching between on and off of power is to beperformed. Then, the power of air conditioner 610 is turned on or offvia remote control 608.

In the case where a speaker instructs by voice that switching between onand off of power of lighting equipment 611 is to be performed,controller 602 transmits, from interface 607 to signal conversioncircuit 609, a control signal (digital signal) instructing thatswitching between on and off of power is to be performed. Signalconversion circuit 609 converts the received control signal into ananalog signal and transfers the analog signal to lighting equipment 611,and power switch 612 of lighting equipment 611 is turned on or off.

Controller 602 is configured in the following manner. Controller 602includes analog/digital conversion circuit (hereinafter referred to as“A/D circuit”) 603, arbitration circuit 605, processor 606 for voicerecognition, and interface 607.

A/D circuit 603 converts an analog voice signal that is input frommicrophone 601 into a digital voice signal. Controller 602 is providedwith the same number of A/D circuits 603 as the number of microphones601 installed in the house.

Arbitration circuit 605 accepts only the earliest received voice signalamong voice signals input from the plurality of A/D circuits 603. Thatis, arbitration circuit 605 detects microphone 601 to which voice isinput earliest, and connects signal line 604 of this microphone 601 toprocessor 606 for voice recognition. For example, arbitration circuit605 can detect the earliest input voice signal by comparing the rise ofpulses of the voice signals.

In this manner, only the voice that is uttered earliest by a speaker isrecognized by processor 606 for voice recognition. Signals of voicesthat are uttered later by other speakers reach only arbitration circuit605, and are not recognized at processor 606 for voice recognition.

As described above, with the voice command input device disclosed in PTL1, only the voice that is uttered earliest is recognized by processor606 for voice recognition, and voices that are uttered later are notrecognized.

However, sometimes it is not desirable that a voice is not recognizedjust because it was uttered later. For example, in a case where onevoice command input device is used by a plurality of users, voices ofthe plurality of users picked up by a plurality of microphones aredesirably each recognized and processed without prioritization.

CITATION LIST Patent Literature

PTL 1: Unexamined Japanese Patent Publication No. 2000-310999

SUMMARY

The present disclosure provides a voice command input device which iscapable of appropriately performing processing even when voices aresimultaneously uttered by a plurality of users, or voice of one speakeris redundantly picked up by a plurality of microphones.

The voice command input device according to the present disclosureincludes a first voice input unit, a second voice input unit, and avoice command identifier. The first voice input unit includes a firstidentification information generator for outputting first identificationinformation, and a first voice recognizer for converting a voice intofirst voice command information, the first voice input unit beingconfigured to output first voice information including the firstidentification information and the first voice command information. Thesecond voice input unit includes a second identification informationgenerator for outputting second identification information, and a secondvoice recognizer for converting a voice into second voice commandinformation, the second voice input unit being configured to outputsecond voice information including the second identification informationand the second voice command information. The voice command identifieris configured to generate and output a control signal for controlling anoperation target appliance, based on the first voice information and thesecond voice information. The voice command identifier generates thecontrol signal by referring to the first identification information andthe second identification information.

A voice command input method according to the present disclosureincludes generating first identification information, converting a voiceinto first voice command information, generating second identificationinformation, converting a voice into second voice command information,referring to the first identification information and the secondidentification information, and generating a control signal forcontrolling an operation target appliance, based on a result of thereferring, and the first voice command information and the second voicecommand information.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a block diagram showing an example of configuration of a voicecommand input device according to a first exemplary embodiment.

FIG. 2 is a flow chart showing an example of operation of the voicecommand input device according to the first exemplary embodiment.

FIG. 3 is a block diagram showing an example of configuration of a voicecommand input device according to a second exemplary embodiment.

FIG. 4 is a block diagram showing an example of configuration of a voicecommand input device according to a third exemplary embodiment.

FIG. 5 is a flow chart showing an example of operation of the voicecommand input device according to the third exemplary embodiment.

FIG. 6 is a block diagram showing a configuration of a conventionalvoice command input device.

DESCRIPTION OF EMBODIMENTS

Hereinafter, exemplary embodiments will be described in detail withreference to the drawings as appropriate. However, unnecessarilydetailed description may be omitted. For example, detailed descriptionof already well-known matters and repeated description of substantiallythe same structure may be omitted. Such omissions are intended tofacilitate understanding by those skilled in the art by preventing thefollowing description from becoming unnecessarily redundant.

The appended drawings and the following description are provided forthose skilled in the art to fully understand the present disclosure, andthe subject described in the claims is not intended to be limited by theappended drawings and the following description.

In the exemplary embodiments described below, cases are described wherea voice command input device includes two voice input units, namely, a“first voice input unit” and a “second voice input unit”. However, thevoice command input device should not be limited to such aconfiguration. The voice command input device may include three or morevoice input units.

In the following exemplary embodiments, a person using the voice commandinput device is referred to as a “user” or a “speaker”. A speaker is aperson who utters a voice command to the voice command input device.

In the following exemplary embodiments, a voice uttered by a user toinstruct the voice command input device to operate an appliance isreferred to as a “voice command”.

First Exemplary Embodiment

In the following, a first exemplary embodiment will be described withreference to FIGS. 1 and 2.

(1-1. Configuration)

FIG. 1 is a block diagram showing an example of configuration of voicecommand input device 100 according to the first exemplary embodiment.

Voice command input device 100 includes first voice input unit 114,second voice input unit 115, voice command identifier 107, and commandissuer 108.

First voice input unit 114 includes first microphone 101, first voicerecognizer 102, and first timestamp adder 103.

Second voice input unit 115 includes second microphone 104, second voicerecognizer 105, and second timestamp adder 106.

A voice of a user picked up by first microphone 101 is input to firstvoice recognizer 102, and is subjected to a voice recognition process.In the present exemplary embodiment, a voice picked up by firstmicrophone 101 is taken as voice command 111. First voice recognizer 102recognizes voice command 111, and converts the command into first voicecommand information.

First timestamp adder 103 outputs first timestamp information indicatingthe time when voice command 111 is input to first voice input unit 114.First timestamp adder 103 is an example of a first identificationinformation generator, and the first timestamp information is an exampleof first identification information.

Then, first voice recognizer 102 outputs, to voice command identifier107, first voice information 109 including the first voice commandinformation and the first timestamp information.

A voice of a user picked up by second microphone 104 is input to secondvoice recognizer 105, and is subjected to a voice recognition process.In the present exemplary embodiment, a voice picked up by secondmicrophone 104 is taken as voice command 112. Second voice recognizer105 recognizes voice command 112, and converts the command into secondvoice command information.

Second timestamp adder 106 outputs second timestamp informationindicating the time when voice command 112 is input to second voiceinput unit 115. Second timestamp adder 106 is an example of a secondidentification information generator, and the second timestampinformation is an example of second identification information.

Then, second voice recognizer 105 outputs, to voice command identifier107, second voice information 110 including the second voice commandinformation and the second timestamp information.

As the voice recognition process to be performed by first voicerecognizer 102 and second voice recognizer 105 may be implemented by agenerally used voice recognition technique, detailed description thereofis omitted. First timestamp adder 103 and second timestamp adder 106desirably generate the first timestamp information and the secondtimestamp information by referring to the same time managed by voicecommand input device 100. However, information other than time mayalternatively be referred to as long as it is possible to indicate thetiming of an input of a voice to the voice input unit. For example, timeinformation that is counted up or down with lapse of a specific periodof time may be referred to instead of the time.

Voice command identifier 107 generates a control signal according to anappliance which is the operation target of voice command input device100 (hereinafter such an appliance will be referred to as an “operationtarget appliance”) based on first voice information 109 output fromfirst voice input unit 114 and second voice information 110 output fromsecond voice input unit 115, and outputs the control signal to commandissuer 108.

Command issuer 108 converts the control signal output from voice commandidentifier 107 into appliance control signal 113 for controlling theoperation target appliance of voice command input device 100, andoutputs appliance control signal 113.

Command issuer 108 is assumed to be configured as appropriate accordingto the operation target appliance of voice command input device 100. Forexample, in the case where the operation target appliance is atelevision set (hereinafter referred to as a “TV”) provided with aninfrared remote control signal receiver, it is assumed that commandissuer 108 is an infrared remote control code output device. In thiscase, the control signal that is output from voice command identifier107 is a remote control code for controlling the TV. Command issuer 108converts the control signal output from voice command identifier 107into an infrared remote control code, and outputs the code. Accordingly,appliance control signal 113 is the infrared remote control code.

As described above, in the present exemplary embodiment, command issuer108 is not limited to a specific configuration, and it is assumed thatcommand issuer 108 is configured as appropriate according to theoperation target appliance of voice command input device 100. In thecase where there are a plurality of operation target appliances of voicecommand input device 100, it is assumed that a plurality ofconfigurations according to the plurality of operation target appliancesare included. Voice command identifier 107 is configured to outputcontrol signals as appropriate according to the configuration of commandissuer 108.

According to voice command input device 100 configured in the abovemanner, each of a plurality of voice input units can simultaneouslyaccept voice commands uttered by different users. Accordingly, even if aplurality of users simultaneously utter voice commands to respectivemicrophones, voice command input device 100 can recognize each of theplurality of voice commands, and perform a plurality of processes basedon the results of voice recognition.

With a voice command input device with such a configuration, if onevoice command uttered by one speaker is redundantly picked up by aplurality of microphones installed in a relatively small region forexample, the one voice command may erroneously be recognized as aplurality of voice commands, and processes may be redundantly performed.

However, voice command input device 100 described in the presentexemplary embodiment is capable of distinguishing whether voice commandspicked up by respective microphones have been uttered by one speaker orby a plurality of speakers, and of performing process(es) asappropriate.

Next, the operation will be described with reference to FIG. 2.

(1-2. Operation)

FIG. 2 is a flow chart showing an example of operation of voice commandinput device 100 according to the first exemplary embodiment.

In the present exemplary embodiment, an example operation is describedfor a case where two pieces of voice information (for example, firstvoice information 109 and second voice information 110) areapproximately simultaneously input to voice command identifier 107, orwhere the period during which one piece of voice information is inputand the period during which the other piece of voice information isinput overlap each other. Description of an operation is not providedfor when only one piece of voice information is input and voice commandidentifier 107 generates a control signal according to the voice commandinformation included in the voice information and outputs the controlsignal. Voice command input device 100 may include three or more voiceinput units, and three or more pieces of voice information may be inputto voice command identifier 107.

Voice command identifier 107 extracts voice command information (forexample, first voice command information and second voice commandinformation) and timestamp information (for example, first timestampinformation and second timestamp information) from each of two pieces ofvoice information (for example, first voice information 109 and secondvoice information 110) (step S200).

Next, voice command identifier 107 compares the two pieces of voicecommand information extracted in step S200 with each other, and decideswhether the two are substantially the same or not (step S201).

When it is decided in step S201 that respective pieces of voice commandinformation are not the same with each other (No), voice commandidentifier 107 determines that respective pieces of voice commandinformation extracted in step S200 are separate pieces of informationbased on voices uttered by different speakers (step S202).

Accordingly, voice command identifier 107 generates control signals (forexample, two control signals) corresponding to respective pieces ofvoice command information extracted in step S200, and outputs thecontrol signals to command issuer 108 (step S203).

When it is decided in step S201 that respective pieces of voice commandinformation are the same with each other (Yes), voice command identifier107 calculates the time difference between the two pieces of timestampinformation extracted in step S200. Then, the calculated time differenceand a recognition threshold value set in advance are compared with eachother (step S204).

The recognition threshold value is assumed to be set to one second, forexample, but is not limited to such a numerical value, and may be set toa numerical value other than one second. The recognition threshold valuemay be held in advance in voice command identifier 107, or therecognition threshold value may be acquired or set from outside.

When it is decided in step S204 that the time difference between the twopieces of timestamp information is at or below the recognition thresholdvalue (Yes), voice command identifier 107 determines that respectivepieces of voice command information extracted in step S200 are the sameinformation based on the voice uttered by one speaker (step S205).

Accordingly, voice command identifier 107 generates one control signalcorresponding to the voice command information, and outputs the controlsignal to command issuer 108 (step S206).

When it is decided in step S204 that the time difference between the twopieces of timestamp information is greater than the recognitionthreshold value (No), voice command identifier 107 determines thatrespective pieces of voice command information extracted in step S200are separate pieces of information based on voices uttered by differentspeakers (step S207). That is, voice command identifier 107 determinesthat the two pieces of voice command information have the same contentbut are to be processed as separate voice commands of differentspeakers.

Accordingly, voice command identifier 107 generates control signals (forexample, two control signals) corresponding to respective pieces ofvoice command information extracted in step S200, and outputs thecontrol signals to command issuer 108 (step S208).

(1-3. Effect and Others)

As described above, in the present exemplary embodiment, the voicecommand input device includes a first voice input unit, a second voiceinput unit, and a voice command identifier. The first voice input unitincludes a first identification information generator for outputtingfirst identification information, and a first voice recognizer forconverting a voice into first voice command information, the first voiceinput unit being configured to output first voice information includingthe first identification information and the first voice commandinformation. The second voice input unit includes a secondidentification information generator for outputting secondidentification information, and a second voice recognizer for convertinga voice into second voice command information, the second voice inputunit being configured to output second voice information including thesecond identification information and the second voice commandinformation. The voice command identifier is configured to generate andoutput a control signal for controlling an operation target appliance,based on the first voice information and the second voice information.The voice command identifier generates the control signal by referringto the first identification information and the second identificationinformation.

In the present exemplary embodiment, the first identificationinformation generator outputs, as the first identification information,first timestamp information indicating a timing of an input of a voiceto the first voice input unit, and the second identification informationgenerator outputs, as the second identification information, secondtimestamp information indicating a timing of an input of a voice to thesecond voice input unit. The voice command identifier generates thecontrol signal based on a time difference between the first timestampinformation and the second timestamp information.

First voice input unit 114 is an example of the first voice input unit,first voice recognizer 102 is an example of the first voice recognizer,first timestamp adder 103 is an example of the first identificationinformation generator, second voice input unit 115 is an example of thesecond voice input unit, second voice recognizer 105 is an example ofthe second voice recognizer, second timestamp adder 106 is an example ofthe second identification information generator, voice commandidentifier 107 is an example of the voice command identifier, firstvoice information 109 is an example of the first voice information, andsecond voice information 110 is an example of the second voiceinformation.

Thus, according to voice command input device 100, each of a pluralityof voice input units can simultaneously accept voice commands uttered bydifferent users. Accordingly, even when a plurality of userssimultaneously utter voice commands to respective microphones, voicecommand input device 100 can perform voice recognition of each of thesevoice commands, and can perform a plurality of processes based on theresults of voice recognition.

Voice command input device 100 can distinguish, based on the timestampinformation, whether voice commands picked up by respective microphoneshave been uttered by one speaker or by a plurality of speakers, and cangenerate control signal(s) based on a result of the distinction.Accordingly, even if one voice command uttered by one speaker isredundantly picked up by a plurality of microphones installed in arelatively small region for example, an erroneous operation ofredundantly performing processes, for example, can be reduced, and aprocess based on the voice command can be appropriately performed.

In the present exemplary embodiment, an example is described where therecognition threshold value is one second, but the recognition thresholdvalue may be shorter than one second or longer than one second. Forexample, in the case where the recognition threshold value is set to arelatively long time, if a user has a habit of repeating the same wordwhen uttering a voice command, the interval between uttered voicecommands is highly likely to be within the recognition threshold value,and thus the possibility of the repeated voice commands being decided asone voice command can be increased, and erroneous operation can besuppressed.

For example, it is assumed that a user has unintentionally repeatedlyuttered a command for turning off the power of a TV by saying “off,off”. In such a case, if the recognition threshold value is set to arelatively short time, the voice command identifier may possiblyerroneously recognize the two voices as separate voice commands. If sucherroneous recognition occurs, there may be caused an erroneous operationwhere a control signal for switching between on and off of the power ofthe TV is output twice from the voice command identifier to the commandissuer, and appliance control signal 113 for switching between on andoff of the power of the TV is issued twice by the command issuer whichhas received the control signals, and as a result, the power of the TVis turned off once and is turned on again. However, by setting therecognition threshold value to a relatively long time, suchunintentional erroneous operation can be prevented.

On the other hand, if the recognition threshold value is set to arelatively short time, even when a plurality of users have approximatelysimultaneously uttered the same voice command to separate microphones,these voice commands can be recognized as separate voice commands, andthe possibility of processes being correctly performed can be increased.

The time information to be referred to by first timestamp adder 103 andthe time information to be referred to by second timestamp adder 106 maybe the same time information or different pieces of time information.However, in the case where the pieces of time information are different,the pieces of time information are desirably synchronous with eachother. For example, first timestamp adder 103 and second timestamp adder106 may communicate with each other on a regular basis so as tosynchronize respective pieces of time information. The voice commandinput device may be configured such that communication with the sametime information source (clock source; for example, a time distributiondevice such as an NTP server (Network Time Protocol Server), or thelike) is performed on a regular basis, and such that the timeinformation is synchronized with the time information source.

As described above, if the recognition threshold value is set to arelatively short time, an erroneous operation may be performed in thecase where the user has a habit of repeating the same word at the timeof uttering a voice command, and the following measure may be taken toreduce such erroneous operation. For example, voice command identifier107 sets a same input threshold as second threshold information. Even ifthe time difference between two pieces of timestamp information is abovea recognition threshold value which is first threshold information, ifthe time difference is at or below the same input threshold, which isthe second threshold information, two pieces of voice commandinformation are treated as one piece of voice command information.Accordingly, it is possible to appropriately cope with both a case wherevoice commands are uttered approximately simultaneously by a pluralityof users and a case where a user has a habit of repeating the same wordwhen uttering a voice command.

First voice input unit 114 and second voice input unit 115 provided tovoice command input device 100 may be installed at separate locations.Alternatively, only first microphone 101 and second microphone 104 maybe installed at separate locations, and other blocks may be embedded inone device.

Second Exemplary Embodiment

In the first exemplary embodiment, an example is described where firsttimestamp adder 103 is provided as the first identification informationgenerator, where the first timestamp information is used as the firstidentification information, where second timestamp adder 106 is providedas the second identification information generator, and where the secondtimestamp information is used as the second identification information.

In the present exemplary embodiment, an example will be described wherea position information adder is provided as the identificationinformation generator, and where position information is used asidentification information.

In the following, a second exemplary embodiment will be described withreference to FIG. 3.

(2-1. Configuration)

FIG. 3 is a block diagram showing an example of configuration of voicecommand input device 300 according to the second exemplary embodiment.

Voice command input device 300 includes first voice input unit 318,second voice input unit 319, third voice input unit 320, voice commandidentifier 310, and command issuer 311.

First voice input unit 318 includes first microphone 301, first voicerecognizer 302, and first position information adder 303.

Second voice input unit 319 includes second microphone 304, second voicerecognizer 305, and second position information adder 306.

Third voice input unit 320 includes third microphone 307, third voicerecognizer 308, and third position information adder 309.

A voice of a user picked up by first microphone 301 is input to firstvoice recognizer 302, and is subjected to a voice recognition process.In the present exemplary embodiment, a voice picked up by firstmicrophone 301 is taken as voice command 315. First voice recognizer 302recognizes voice command 315, and converts the command into first voicecommand information. First position information adder 303 outputs firstposition information indicating position information of the locationwhere first microphone 301 is installed, for example. First positioninformation adder 303 is an example of the first identificationinformation generator, and the first position information is an exampleof the first identification information. First voice recognizer 302outputs first voice information 312 including the first voice commandinformation and the first position information to voice commandidentifier 310.

A voice of a user picked up by second microphone 304 is input to secondvoice recognizer 305, and is subjected to a voice recognition process.In the present exemplary embodiment, a voice picked up by secondmicrophone 304 is taken as voice command 316. Second voice recognizer305 recognizes voice command 316, and converts the command into secondvoice command information. Second position information adder 306 outputssecond position information indicating position information of thelocation where second microphone 304 is installed, for example. Secondposition information adder 306 is an example of the secondidentification information generator, and the second positioninformation is an example of the second identification information.Second voice recognizer 305 outputs second voice information 313including the second voice command information and the second positioninformation to voice command identifier 310.

A voice of a user picked up by third microphone 307 is input to thirdvoice recognizer 308, and is subjected to a voice recognition process.In the present exemplary embodiment, a voice picked up by thirdmicrophone 307 is taken as voice command 317. Third voice recognizer 308recognizes voice command 317, and converts the command into third voicecommand information. Third position information adder 309 outputs thirdposition information indicating position information of the locationwhere third microphone 307 is installed, for example. Third positioninformation adder 309 is an example of the second identificationinformation generator, and the third position information is an exampleof the second identification information. Third voice recognizer 308outputs third voice information 314 including the third voice commandinformation and the third position information to voice commandidentifier 310.

The voice recognition process to be performed by each voice recognizermay be implemented by a generally used voice recognition technique, anddetailed description thereof is omitted. Each position information addermay be configured to detect the position information by a generally usedposition information detection technique, or may be configured to holdposition information that is registered in advance.

For example, in the present exemplary embodiment, first voice input unit318 and second voice input unit 319 are assumed to be installed close toeach other (for example, in the same room), and the name of the locationis given as “location 1”. Third voice input unit 320 is assumed to beinstalled at a location different from location 1 (for example, in aroom different from location 1), and it is assumed that the name of thelocation is given as “location 2”.

It is assumed that a voice uttered at location 1 is picked up by one orboth of first microphone 301 and second microphone 304, but is notpicked up by third microphone 307. It is assumed that a voice uttered atlocation 2 is picked up by third microphone 307, but is not picked up byfirst microphone 301 and second microphone 304.

It is assumed that same position information indicating location 1 isheld in first position information adder 303 and second positioninformation adder 306, and position information indicating location 2 isheld in third position information adder 309.

Voice command identifier 310 generates a control signal according to anappliance which is an operation target of voice command input device 300(operation target appliance), based on first voice information 312output from first voice input unit 318, second voice information 313output from second voice input unit 319, and third voice information 314output from third voice input unit 320, and outputs the control signalto command issuer 311.

Command issuer 311 converts the control signal output from voice commandidentifier 310 into appliance control signal 330 for controlling theoperation target appliance of voice command input device 300, andoutputs appliance control signal 330.

It is assumed that command issuer 311 is configured as appropriateaccording to the operation target appliance of voice command inputdevice 300. For example, in the case where the operation targetappliance is a TV provided with an infrared remote control signalreceiver, command issuer 311 is an infrared remote control code outputdevice. In this case, the control signal that is output from voicecommand identifier 310 is a remote control code for controlling the TV,and command issuer 311 converts the control signal input from voicecommand identifier 310 into an infrared remote control code, and outputsthe infrared remote control code. Accordingly, appliance control signal330 is the infrared remote control code.

As described above, according to the present exemplary embodiment,command issuer 311 is not limited to a specific configuration, and isconfigured as appropriate according to the operation target appliance ofvoice command input device 300. In the case where there are a pluralityof operation target appliances of voice command input device 300, it isassumed that a plurality of configurations according to the plurality ofoperation target appliances are included. And then, voice commandidentifier 310 is configured to output control signals as appropriateaccording to the configuration of command issuer 311.

According to voice command input device 300 configured in the abovemanner, a plurality of voice input units can simultaneously accept voicecommands uttered by different users. Accordingly, as with voice commandinput device 100 described in the first exemplary embodiment, even if aplurality of users simultaneously utter voice commands to respectivemicrophones, voice command input device 300 can recognize each of theplurality of voice commands, and perform a plurality of processes basedon the results of voice recognition.

Voice command input device 300 described in the present exemplaryembodiment can distinguish, by a method different from that of voicecommand input device 100 described in the first exemplary embodiment,whether voice commands picked up by respective microphones have beenuttered by one speaker or by a plurality of speakers, and can performprocess(es) as appropriate.

The operation will be described next.

(2-2. Operation)

In the present exemplary embodiment, an example operation is describedfor a case where three pieces of voice information (in this example,first voice information 312, second voice information 313, and thirdvoice information 314) are approximately simultaneously input to voicecommand identifier 310, or where the pieces of information are inputwithin a predetermined period of time (a period of time long enough tocause an input period where the pieces of information overlap oneanother; for example, five seconds). It is assumed that, when only onepiece of voice information is input, voice command identifier 310generates a control signal according to the voice command informationincluded in the voice information and outputs the control signal.Description of the above operation is omitted. Voice command inputdevice 300 may include two voice input units or four or more voice inputunits, and two pieces of voice information or four or more pieces ofvoice information may be input to voice command identifier 310.

When a plurality of pieces of voice information are input within thepredetermined period of time, voice command identifier 310 firstextracts the position information from each piece of voice information,and compares the pieces of position information with one another. Also,voice command identifier 310 extracts the voice command information fromeach piece of voice information, and compares the pieces of voicecommand information with one another.

When, as a result of comparison, it is decided that the pieces ofposition information are different from one another, voice commandidentifier 310 determines that respective pieces of voice commandinformation included in the pieces of voice information are separatepieces of information based on voices uttered by different speakers, andgenerates and outputs control signals according to respective pieces ofvoice command information.

When, as a result of comparison, it is decided that respective pieces ofposition information are the same with one another and that respectivepieces of voice command information are also the same with one another,voice command identifier 310 determines that the pieces of voice commandinformation included in respective pieces of voice information are thesame piece of information based on a voice uttered by one speaker, andgenerates and outputs a control signal according to the voice commandinformation.

When, as a result of comparison, it is decided that respective pieces ofposition information are the same with one another but respective piecesof voice command information are different from one another, voicecommand identifier 310 determines that the pieces of voice commandinformation included in respective pieces of voice information areseparate pieces of information based on voices uttered by differentspeakers, and generates and outputs control signals according torespective pieces of voice command information.

When, as a result of comparison, it is decided that same pieces ofposition information with one another and different pieces of positioninformation from one another are present in a mixed manner, voicecommand identifier 310 determines, for the pieces of voice informationof the different pieces of position information from one another, thatthe pieces of voice command information included in the pieces of voiceinformation are separate pieces of information based on voices utteredby different speakers. With respect to the pieces of voice informationof the same pieces of position information with one another, if piecesof voice command information included in the pieces of voice informationare the same with one another, the pieces of voice command informationare determined to be the same piece of information based on a voiceuttered by one speaker, and if the pieces of voice command informationincluded in the pieces of voice information are different from eachother, the pieces of voice command information are determined to beseparate pieces of information based on voices uttered by differentspeakers. Then, based on the result of determination, control signalsaccording to the pieces of voice command information are generated andoutput.

For example, it is assumed that first voice information 312 and thirdvoice information 314 are input to voice command identifier 310 withinthe predetermined period of time. At this time, if the first positioninformation and the third position information are different pieces ofposition information from each other, voice command identifier 310determines that the first voice command information and the third voicecommand information are separate pieces of information based on voicesuttered by different speakers. Accordingly, voice command identifier 310generates a control signal corresponding to the first voice commandinformation and a control signal corresponding to the third voicecommand information, and outputs the control signals to command issuer311.

For example, it is assumed that first voice information 312 and secondvoice information 313 are input to voice command identifier 310 withinthe predetermined period of time. It is also assumed that the firstvoice command information and the second voice command information arethe same voice command information with each other, and that the firstposition information and the second position information are the sameposition information with each other. At this time, voice commandidentifier 310 determines that the first voice command information andthe second voice command information are the same piece of informationbased on a voice uttered by one speaker. Then, one control signalcorresponding to the first voice command information (or the secondvoice command information) is generated and is output to command issuer311.

For example, it is assumed that first voice information 312 and secondvoice information 313 are input to voice command identifier 310 withinthe predetermined period of time. It is also assumed that the firstposition information and the second position information are the sameposition information with each other but the first voice commandinformation and the second voice command information are differentpieces of voice command information from each other. At this time, voicecommand identifier 310 determines that the first voice commandinformation and the second voice command information are separate piecesof information based on voices uttered by different speakers.Accordingly, voice command identifier 310 generates a control signalcorresponding to the first voice command information and a controlsignal corresponding to the second voice command information, andoutputs the control signals to command issuer 311.

For example, it is assumed that first voice information 312, secondvoice information 313, and third voice information 314 are input tovoice command identifier 310 within the predetermined period of time. Itis also assumed that the first voice command information, the secondvoice command information, and the third voice command information arethe same pieces of voice command information with one another. At thistime, if the first position information and the second positioninformation are the same position information with each other, voicecommand identifier 310 determines that the first voice commandinformation and the second voice command information are the same pieceof information based on a voice uttered by one speaker. If the firstposition information (and the second position information) and the thirdposition information are different pieces of position information fromeach other, voice command identifier 310 determines that the first voicecommand information (and the second voice command information) and thethird voice command information are separate pieces of information basedon voices uttered by different speakers. Accordingly, voice commandidentifier 310 generates a control signal corresponding to the firstvoice command information (or the second voice command information) anda control signal corresponding to the third voice command information,and outputs the control signals to command issuer 311.

In this manner, when a plurality of pieces of voice information areinput within the predetermined period of time, voice command identifier310 described in the present exemplary embodiment extracts the positioninformation from each piece of voice information and compares the piecesof position information with one another, and generates controlsignal(s) based on the result of comparison and the voice commandinformation included in each piece of voice information, and outputs thecontrol signal(s). When only one piece of voice information is inputwithin the predetermined period of time, a control signal correspondingto the voice command information included in the voice information isgenerated and output.

Decision regarding whether within the predetermined period of time ornot can be made by providing a timer to voice command identifier 310 andsetting in advance a threshold for deciding the predetermined period oftime, and by comparing the time measured by the timer and the threshold,for example. The timer may be configured such that measurement of timeis started at the time of input of the earliest voice information andreset is performed at the time of output of a control signal, forexample.

(2-3. Effect, etc.)

As described above, in the present exemplary embodiment, the voicecommand input device includes a first voice input unit, a second voiceinput unit, and a voice command identifier. The first voice input unitincludes a first identification information generator for outputtingfirst identification information, and a first voice recognizer forconverting a voice into first voice command information, the first voiceinput unit being configured to output first voice information includingthe first identification information and the first voice commandinformation. The second voice input unit includes a secondidentification information generator for outputting secondidentification information, and a second voice recognizer for convertinga voice into second voice command information, the second voice inputunit being configured to output second voice information including thesecond identification information and the second voice commandinformation. The voice command identifier is configured to generate andoutput a control signal for controlling an operation target appliance,based on the first voice information and the second voice information.The voice command identifier generates the control signal by referringto the first identification information and the second identificationinformation.

In the present exemplary embodiment, the first identificationinformation generator outputs, as the first identification information,first position information indicating a location where the first voiceinput unit is installed, and the second identification informationgenerator outputs, as the second identification information, secondposition information indicating a location where the second voice inputunit is installed. The voice command identifier generates the controlsignal based on a comparison of the first position information and thesecond position information.

First voice input unit 318 is an example of the first voice input unit,first voice recognizer 302 is an example of the first voice recognizer,first position information adder 303 is an example of the firstidentification information generator, second voice input unit 319 andthird voice input unit 320 are examples of the second voice input unit,second voice recognizer 305 and third voice recognizer 308 are examplesof the second voice recognizer, second position information adder 306and third position information adder 309 are examples of the secondidentification information generator, voice command identifier 310 is anexample of the voice command identifier, first voice information 312 isan example of the first voice information, and second voice information313 and third voice information 314 are examples of the second voiceinformation.

Thus, according to voice command input device 300, each of a pluralityof voice input units can simultaneously accept voice commands uttered bydifferent users. Accordingly, even when a plurality of userssimultaneously utter voice commands to respective microphones, voicecommand input device 300 can perform voice recognition of each of thesevoice commands, and can perform a plurality of processes based on theresults of voice recognition.

Voice command input device 300 can distinguish, based on the positioninformation, whether voice commands picked up by respective microphoneshave been uttered by one speaker or by a plurality of speakers, and cangenerate control signal(s) based on a result of the distinction.Accordingly, even if one voice command uttered by one speaker isredundantly picked up by a plurality of microphones installed in arelatively small region for example, an erroneous operation ofredundantly performing processes, for example, can be reduced, and aprocess based on the voice command can be appropriately performed.

The position information may be set in advance, or may be acquired bygenerally used position information detection means (for example, adevice that detects position information by using information of accesspoint of Wi-Fi (Wireless Fidelity), information of beacon, informationof GPS (Global Positioning System), etc.). A configuration includingsuch position information detection means is effective in a case wherethe voice input unit possibly moves with lapse of time as in a casewhere the microphone is worn by a user or the voice input unit isinstalled in a mobile body such as a vehicle, for example.

Third Exemplary Embodiment

In the present exemplary embodiment, an example is described where anindividual identifier as the identification information generator isprovided, and where speaker information is used as the identificationinformation.

In the following, the third exemplary embodiment will be described withreference to FIGS. 4 and 5.

(3-1. Configuration)

FIG. 4 is a block diagram showing an example of configuration of voicecommand input device 400 according to the third exemplary embodiment.

Voice command input device 400 includes first voice input unit 418,second voice input unit 419, voice command identifier 407, and commandissuer 408.

First voice input unit 418 includes first microphone 401, firstindividual identifier 402, and first voice recognizer 403.

Second voice input unit 419 includes second microphone 404, secondindividual identifier 405, and second voice recognizer 406.

A voice of a user picked up by first microphone 401 is input to firstvoice recognizer 403, and is subjected to a voice recognition process.In the present exemplary embodiment, a voice picked up by firstmicrophone 401 is taken as first voice command 409. First voice command409 is also input to first individual identifier 402.

First individual identifier 402 analyzes the voice to specify thespeaker who has uttered first voice command 409, and specifies thespeaker. Then, first speaker information 414 indicating the speaker isoutput to first voice recognizer 403.

First voice recognizer 403 recognizes first voice command 409 andconverts the command into first voice command information. Then, firstvoice recognizer 403 outputs first voice information 411 including thefirst voice command information and first speaker information 414 tovoice command identifier 407.

A voice of a user picked up by second microphone 404 is input to secondvoice recognizer 406, and is subjected to a voice recognition process.In the present exemplary embodiment, a voice picked up by secondmicrophone 404 is taken as second voice command 410. Second voicecommand 410 is also input to second individual identifier 405.

Second individual identifier 405 analyzes the voice to specify thespeaker who has uttered second voice command 410, and specifies thespeaker. Then, second speaker information 415 indicating the speaker isoutput to second voice recognizer 406.

Second voice recognizer 406 recognizes second voice command 410 andconverts the command into second voice command information. Then, secondvoice recognizer 406 outputs second voice information 412 including thesecond voice command information and second speaker information 415 tovoice command identifier 407.

As the voice recognition process to be performed by each voicerecognizer may be implemented by a generally used voice recognitiontechnique, detailed description thereof is omitted.

As described above, first individual identifier 402 identifies anindividual by using first voice command 409, and second individualidentifier 405 identifies an individual by using second voice command410. As identification of an individual by voice may be implemented by agenerally used biometric authentication technique (a technique ofperforming individual authentication by comparing voiceprint informationthat is registered in advance and voiceprint information that is input,and of specifying an individual), detailed description thereof isomitted.

The first speaker information and the second speaker information aredesirably individual ID (Identification), an individual name or thelike, but any information may be used as long as an individual can bespecified by the information.

Voice command identifier 407 generates a control signal according to anappliance which is an operation target of voice command input device 400(operation target appliance), based on first voice information 411output from first voice input unit 418, and second voice information 412output from second voice input unit 419, and outputs the control signalto command issuer 408.

Command issuer 408 converts the control signal output from voice commandidentifier 407 into appliance control signal 413 for controlling theoperation target appliance of voice command input device 400, andoutputs appliance control signal 413.

It is assumed that command issuer 408 is configured as appropriateaccording to the operation target appliance of voice command inputdevice 400. For example, in the case where the operation targetappliance is a TV provided with an infrared remote control signalreceiver, command issuer 408 is an infrared remote control code outputdevice. In this case, the control signal that is output from voicecommand identifier 407 is a remote control code for controlling the TV,and command issuer 408 converts the control signal output from voicecommand identifier 407 into an infrared remote control code, and outputsthe infrared remote control code. Accordingly, appliance control signal413 is the infrared remote control code.

As described above, according to the present exemplary embodiment,command issuer 408 is not limited to a specific configuration, and isconfigured as appropriate according to the operation target appliance ofvoice command input device 400. In the case where there are a pluralityof operation target appliances of voice command input device 400, it isassumed that a plurality of configurations according to the plurality ofoperation target appliances are included. Voice command identifier 407is configured to output control signals as appropriate according to theconfiguration of command issuer 408.

According to voice command input device 400 configured in the abovemanner, a plurality of voice input units can simultaneously accept voicecommands uttered by different users. Accordingly, as with voice commandinput device 100 described in the first exemplary embodiment and voicecommand input device 300 described in the second exemplary embodiment,even if a plurality of users simultaneously utter voice commands torespective microphones, voice command input device 400 can recognizeeach of the plurality of voice commands, and perform a plurality ofprocesses based on the results of voice recognition.

Voice command input device 400 described in the present exemplaryembodiment can distinguish, by a method different from those of voicecommand input device 100 described in the first exemplary embodiment andvoice command input device 300 described in the second exemplaryembodiment, whether voice commands picked up by respective microphonesof a plurality of microphones have been uttered by one speaker or by aplurality of speakers, and can perform process(es) as appropriate.

Next, the operation will be described with reference to FIG. 5.

(3-2. Operation)

FIG. 5 is a flow chart showing an example of operation of voice commandinput device 400 according to the third exemplary embodiment.

In the present exemplary embodiment, an example operation is describedfor a case where two pieces of voice information (in this example, firstvoice information 411, and second voice information 412) areapproximately simultaneously input to voice command identifier 407, orwhere the pieces of information are input within a period of time wherethe pieces of information overlap each other. It is assumed that, whenonly one piece of voice information is input, voice command identifier407 generates a control signal according to the voice commandinformation included in the voice information and outputs the controlsignal. Description of the above operation is omitted. Voice commandinput device 400 may include three or more voice input units, and threeor more pieces of voice information may be input to voice commandidentifier 407.

Voice command identifier 407 extracts voice command information (forexample, the first voice command information and the second voicecommand information) and speaker information (for example, the firstspeaker information and the second speaker information) from each of aplurality of pieces of voice information (for example, first voiceinformation 411 and second voice information 412) (step S500).

Next, voice command identifier 407 compares the pieces of speakerinformation extracted in step S500 with each other, and decides whetherthe pieces of information indicate the same speaker (step S501).

When it is decided in step S501 that respective pieces of speakerinformation indicate the same speaker (Yes), voice command identifier407 determines that respective pieces of voice command informationextracted in step S500 are the same information based on a voice utteredby one speaker (step S502).

Accordingly, voice command identifier 407 generates one control signalcorresponding to respective voice command information, and outputs thesignal to command issuer 408 (step S503).

When it is decided in step S501 that respective pieces of speakerinformation indicate different speakers (No), voice command identifier407 determines that respective pieces of voice command informationextracted in step S500 are separate pieces of information based onvoices uttered by different speakers (step S504).

Accordingly, voice command identifier 407 generates control signals (forexample, two control signals) corresponding to respective pieces ofvoice command information extracted in step S500, and outputs thesignals to command issuer 408 (step S505).

(3-3. Effect, etc.)

As described above, in the present exemplary embodiment, the voicecommand input device includes a first voice input unit, a second voiceinput unit, and a voice command identifier. The first voice input unitincludes a first identification information generator for outputtingfirst identification information, and a first voice recognizer forconverting a voice into first voice command information, the first voiceinput unit being configured to output first voice information includingthe first identification information and the first voice commandinformation. The second voice input unit includes a secondidentification information generator for outputting secondidentification information, and a second voice recognizer for convertinga voice into second voice command information, the second voice inputunit being configured to output second voice information including thesecond identification information and the second voice commandinformation. The voice command identifier is configured to generate andoutput a control signal for controlling an operation target appliance,based on the first voice information and the second voice information.The voice command identifier generates the control signal by referringto the first identification information and the second identificationinformation.

In the present exemplary embodiment, the first identificationinformation generator outputs, as the first identification information,first speaker information indicating an utterer of a voice which isinput to the first voice input unit, and the second identificationinformation generator outputs, as the second identification information,second speaker information indicating an utterer of a voice which isinput to the second voice input unit. The voice command identifiergenerates the control signal based on a comparison of the first speakerinformation and the second speaker information.

First voice input unit 418 is an example of the first voice input unit,first voice recognizer 403 is an example of the first voice recognizer,first individual identifier 402 is an example of the firstidentification information generator, second voice input unit 419 is anexample of the second voice input unit, second voice recognizer 406 isan example of the second voice recognizer, second individual identifier405 is an example of the second identification information generator,voice command identifier 407 is an example of the voice commandidentifier, first voice information 411 is an example of the first voiceinformation, and second voice information 412 is an example of thesecond voice information.

Thus, according to voice command input device 400, each of a pluralityof voice input units can simultaneously accept voice commands uttered bydifferent users. Accordingly, even when a plurality of userssimultaneously utter voice commands to respective microphones, voicecommand input device 400 can perform voice recognition of each of thesevoice commands, and can perform a plurality of processes based on theresults of voice recognition.

Voice command input device 400 can distinguish, based on the speakerinformation, whether voice commands picked up by respective microphoneshave been uttered by one speaker or by a plurality of speakers, and cangenerate control signal(s) based on a result of the distinction.Accordingly, even if one voice command uttered by one speaker isredundantly picked up by a plurality of microphones installed in arelatively small region for example, an erroneous operation ofredundantly performing processes, for example, can be reduced, and aprocess based on the voice command can be appropriately performed.

Other Exemplary Embodiments

The first to the third exemplary embodiments have been described aboveas examples of the technique disclosed in the present disclosure.However, the technique according to the present disclosure can beapplied to exemplary embodiments with modifications, substitutions,additions, omissions and the like without being limited to the exemplaryembodiments described above. A new exemplary embodiment can be achievedby combining the structural elements described in the first to the thirdexemplary embodiments.

Accordingly, other exemplary embodiments will be illustrated below.

In the first exemplary embodiment, a configuration where the timestampadder is provided to each voice recognizer is described. However, thepresent disclosure is not limited to such a configuration. For example,a time information source such as a timer or the like is provided insidethe voice command identifier. When the voice command information isinput to the voice command identifier, the voice command identifierrefers to the time information source and generates timestampinformation. Then, the timestamp information is linked with the voicecommand information. The voice command input device may be configured inthis manner.

In the second exemplary embodiment, a configuration where the voicecommand identifier decides whether “pieces of position information arethe same with each other” by comparing the pieces of positioninformation with each other is described. However, the presentdisclosure is not limited to such a configuration. For example, thevoice command identifier may be configured to calculate, from two piecesof position information, a separation distance between the pieces ofinformation, and may execute to decide whether “the pieces of positioninformation are the same with each other” based on a comparison of thecalculated distance and a threshold. According to this configuration, ifthe separation distance calculated from the two pieces of positioninformation is at or below a threshold (for example, 20 m), the twopieces of position information may be decided to be the same with eachother, and if the separation distance is greater than the threshold, thetwo pieces of position information may be decided to be different fromeach other. Longitude information and latitude information, altitudeinformation and the like may also be used as the position information.

In the third exemplary embodiment, a configuration where the firstspeaker information and the second speaker information are used asinformation for specifying a speaker (for example, an individual ID oran individual name) is described. However, the present disclosure is notlimited to such a configuration. For example, the voiceprint informationextracted from a voice command or information about feature points of avoiceprint may be taken as the speaker information, and the voicecommand identifier may also be configure to compare pieces of voiceprintinformation with each other, or to compare the feature points ofvoiceprints with each other. Also according to such a configuration, thevoice command input device is enabled to decide whether utterers of aplurality of pieces of voice command information are the same speaker ordifferent speakers. Voiceprint information does not have to beregistered in advance in the voice command input device configured inthis manner. Furthermore, since the voiceprint information does not haveto be registered in advance, this voice command input device can beeffectively used at locations where there are many unspecified userssuch as public areas, or the like.

Each structural element described in the present exemplary embodimentsmay be configured as an electronic circuit, or each structural elementmay be implemented by a processor executing a program.

INDUSTRIAL APPLICABILITY

The present disclosure can be applied to a voice command input devicewhich allows a plurality of users to operate an appliance by voice.Specifically, the present disclosure may be applied to a system or adevice that is configured in such a way that a plurality of microphonesare installed at different locations, voices picked up by respectivemicrophones are input to one control device, and an operation targetappliance is controlled by the control device based on the voices.

REFERENCE MARKS IN THE DRAWINGS

100, 300, 400 voice command input device

101, 301, 401 first microphone

102, 302, 403 first voice recognizer

103 first timestamp adder

104, 304, 404 second microphone

105, 305, 406 second voice recognizer

106 second timestamp adder

107, 310, 407 voice command identifier

108, 311, 408 command issuer

109, 312, 411 first voice information

110, 313, 412 second voice information

111, 112, 315, 316, 317, 409, 410 voice command

113, 330, 413 appliance control signal

114, 318, 418 first voice input unit

115, 319, 419 second voice input unit

303 first position information adder

306 second position information adder

307 third microphone

308 third voice recognizer

309 third position information adder

314 third voice information

320 third voice input unit

402 first individual identifier

405 second individual identifier

414 first speaker information

415 second speaker information

The invention claimed is:
 1. A voice command input device comprising: afirst voice input unit including a first identification informationgenerator for outputting first identification information, and a firstvoice recognizer for converting a voice into first voice commandinformation, the first voice input unit being configured to output firstvoice information including the first identification information and thefirst voice command information; a second voice input unit including asecond identification information generator for outputting secondidentification information, and a second voice recognizer for convertinga voice into second voice command information, the second voice inputunit being configured to output second voice information including thesecond identification information and the second voice commandinformation; and a voice command identifier configured to generate andoutput a control signal for controlling an operation target appliance,based on the first voice information and the second voice information,wherein the voice command identifier generates the control signal byreferring to the first identification information and the secondidentification information, wherein the first identification informationgenerator outputs, as the first identification information, firstspeaker information indicating an utterer of a voice which is input tothe first voice input unit, wherein the second identificationinformation generator outputs, as the second identification information,second speaker information indicating an utterer of a voice which isinput to the second voice input unit, and wherein the voice commandidentifier: compares the first speaker information and the secondspeaker information; in case where the voice command identifier decidesthat the utterer whose voice is input to the first voice input unit andthe utterer whose voice is input to the second voice input unit are thesame utterer, generates one control signal corresponding to the sameutterer; and in case where the voice command identifier decides that theutterer whose voice is input to the first voice input unit and theutterer whose voice is input to the second voice input unit aredifferent utterers, generates two control signals that include a controlsignal corresponding to one of the different utterers and a controlsignal corresponding to the other of the different utterers.
 2. A voicecommand input device comprising: a first voice input unit including afirst identification information generator for outputting firstidentification information, and a first voice recognizer for convertinga voice into first voice command information, the first voice input unitbeing configured to output first voice information including the firstidentification information and the first voice command information; asecond voice input unit including a second identification informationgenerator for outputting second identification information, and a secondvoice recognizer for converting a voice into second voice commandinformation, the second voice input unit being configured to outputsecond voice information including the second identification informationand the second voice command information; and a voice command identifierconfigured to generate and output a control signal for controlling anoperation target appliance, based on the first voice information and thesecond voice information, wherein the voice command identifier generatesthe control signal by referring to the first identification informationand the second identification information, wherein the firstidentification information generator outputs, as the firstidentification information, first speaker information indicating afeature of a voice which is input to the first voice input unit, whereinthe second identification information generator outputs, as the secondidentification information, second speaker information indicating afeature of a voice which is input to the second voice input unit, andwherein the voice command identifier: compares the first speakerinformation and the second speaker information; in case where the voicecommand identifier decides that an utterer whose voice is input to thefirst voice input unit and an utterer whose voice is input to the secondvoice input unit are the same utterer, generates one control signalcorresponding to the same utterer; and in case where the voice commandidentifier decides that the utterer whose voice is input to the firstvoice input unit and the utterer whose voice is input to the secondvoice input unit are different utterers, generates two control signalsthat include a control signal corresponding to one of the differentutterers and a control signal corresponding to the other of thedifferent utterers.
 3. A voice command input device comprising: a firstvoice input unit including a first identification information generatorfor outputting first identification information, and a first voicerecognizer for converting a voice into first voice command information,the first voice input unit being configured to output first voiceinformation including the first identification information and the firstvoice command information; a second voice input unit including a secondidentification information generator for outputting secondidentification information, and a second voice recognizer for convertinga voice into second voice command information, the second voice inputunit being configured to output second voice information including thesecond identification information and the second voice commandinformation; and a voice command identifier configured to generate andoutput a control signal for controlling an operation target appliance,based on the first voice information and the second voice information,wherein the voice command identifier generates the control signal byreferring to the first identification information and the secondidentification information, wherein the first identification informationgenerator outputs, as the first identification information, firstposition information indicating a location where the first voice inputunit is installed, wherein the second identification informationgenerator outputs, as the second identification information, secondposition information indicating a location where the second voice inputunit is installed, and wherein the voice command identifier: comparesthe first position information and the second position information; incase where the voice command identifier decides that the location wherethe first voice input unit is installed and the location where thesecond voice input unit is installed are the same location, generatesone control signal corresponding to the same location; and in case wherethe voice command identifier decides that the location where the firstvoice input unit is installed and the location where the second voiceinput unit is installed are different locations, generates two controlsignals that include a control signal corresponding to one of thedifferent locations and a control signal corresponding to the other ofthe different locations.
 4. A voice command input method comprising:generating first identification information; converting a voice intofirst voice command information; generating second identificationinformation; converting a voice into second voice command information;referring to the first identification information and the secondidentification information; and generating a control signal forcontrolling an operation target appliance, based on a result of thereferring, and the first voice command information and the second voicecommand information, wherein, in generating the first identificationinformation, a first speaker information is output as the firstidentification information, the first speaker information indicating anutterer whose voice is converted to the first voice command information,wherein, in generating the second identification information, a secondspeaker information is output as the second identification information,the second speaker information indicating an utterer whose voice isconverted to the second voice command information, and wherein, ingenerating the control signal, the first speaker information and thesecond speaker information are compared, in case where it is decidedthat the utterer whose voice is converted to the first voice commandinformation and the utterer whose voice is converted to the second voicecommand information are the same utterer, one control signalcorresponding to the same utterer is generated, and in case where it isdecided that the utterer whose voice is converted to the first voicecommand information and the utterer whose voice is converted to thesecond voice command information are different utterers, two controlsignals that include a control signal corresponding to one of thedifferent utterers and a control signal corresponding to the other ofthe different utterers are generated.
 5. A voice command input methodcomprising: generating first identification information; converting avoice into first voice command information; generating secondidentification information; converting a voice into second voice commandinformation; referring to the first identification information and thesecond identification information; and generating a control signal forcontrolling an operation target appliance, based on a result of thereferring, and the first voice command information and the second voicecommand information, wherein, in generating the first identificationinformation, a first speaker information is output as the firstidentification information, the first speaker information indicating afeature of a voice to be converted to the first voice commandinformation, wherein, in generating the second identificationinformation, a second speaker information is output as the secondidentification information, the second speaker information indicating afeature of a voice to be converted to the second voice command, andwherein, in generating the control signal, the first speaker informationand the second speaker information are compared, in case where it isdecided that an utterer whose voice is converted to the first voicecommand information and an utterer whose voice is converted to thesecond voice command information are the same utterer, one controlsignal corresponding to the same utterer is generated, and in case whereit is decided that the utterer whose voice is converted to the firstvoice command information and the utterer whose voice is converted tothe second voice command information are different utterers, two controlsignals that include a control signal corresponding to one of thedifferent utterers and a control signal corresponding to the other ofthe different utterers are generated.
 6. A voice command input methodcomprising: generating first identification information; converting avoice into first voice command information; generating secondidentification information; converting a voice into second voice commandinformation; referring to the first identification information and thesecond identification information; and generating a control signal forcontrolling an operation target appliance, based on a result of thereferring, and the first voice command information and the second voicecommand information, wherein, in generating the first identificationinformation, a first position information is output as the firstidentification information, the first position information indicating alocation where a first voice input unit to which the voice to beconverted to the first voice command information is input is installed,wherein, in generating the second identification information, a secondposition information is output as the second identification information,the second position information indicating a location where a secondvoice input unit to which the voice to be converted to the second voicecommand information is input is installed, and wherein, in generatingthe control signal, the first position information and the secondposition information are compared, in case where it is decided that thelocation where the first voice input unit is installed and the locationwhere the second voice input unit is installed are the same location,one control signal corresponding to the same location is generated, andin case where it is decided that the location where the first voiceinput unit is installed and the location where the second voice inputunit is installed are different locations, two control signals thatinclude a control signal corresponding to one of the different locationsand a control signal corresponding to the other of the differentlocations are generated.